CN101897106A

CN101897106A - Electric machine having a twin axial fan

Info

Publication number: CN101897106A
Application number: CN2008801207647A
Authority: CN
Inventors: 塞巴斯蒂安·魏斯; 克里斯蒂安·德格; 埃克哈德·雷赛尔
Original assignee: Siemens AG
Current assignee: Yinmengda Co ltd
Priority date: 2007-12-20
Filing date: 2008-11-06
Publication date: 2010-11-24
Anticipated expiration: 2028-11-06
Also published as: RU2010130185A; DE102007061597A1; US8283817B2; RU2502179C2; WO2009080400A1; US20110006622A1; CN101897106B; DE102007061597B4; EP2223414A1; EP2223414B1

Abstract

The invention aims to configure the cooling of electric machines in a more efficient manner. The invention therefore provides an electric machine having a stator (1), a rotor (2) comprising a shaft (3) and provided with radial and axial cooling channels (10, 11) and acting as a rotor fan, and having an axial fan (12) that is disposed coaxially to the shaft (3) and delivers coolant to the axial cooling channels (11). The axial fan (12) is implemented as a twin axial fan and has a first blade ring (14), which is enclosed by a funnel-shaped tube (15) and is non-rotatably connected to the same. The smaller opening of the funnel-shaped tube (15) is directly connected to the axial cooling channels (11) of the rotor (2). The axial fan (12) further has a second blade ring (19), which is firmly attached at the outer circumference of the tube (15) in order to deliver coolant (1). In this matter both the stator and the rotor can be cooled using an effective coolant flow.

Description

Motor with twin axial fan

Technical field

The present invention relates to a kind of motor that comprises a stator, a rotor and a tube-axial fan, described rotor has an axle, also have a plurality of radial and axial cooling ducts, described rotor plays the effect of rotor fan, described tube-axial fan and described axle coaxial arrangement are used for carrying cooling agent to described axial cooling duct.Described tube-axial fan self has one first blade ring, and described first blade ring is surrounded by an infundibulate pipe fitting and do not link to each other rotationally with described infundibulate pipe fitting.The smaller opening of described infundibulate pipe fitting directly links to each other with the axial cooling duct of described rotor.

Background technology

Heavy-duty motor need be equipped with efficient cooling system.Have only by efficient cooling (may be that bilateral ventilates according to circumstances) and could make full use of motor.If for rotor is equipped with the passage that radially extends, this rotor itself will be brought into play certain fan effect so.The axial passage that links to each other with these radial passages then can make air-flow flow to each radial passage from the rotor front end face.Rotor in this case is to carry out work by the principle of radial fan.Consequent air-flow not only can cooled rotor itself, also can cool off the stack of laminations of stator sometimes.

The cooling effect of rotor fan depends on that air goes into/dynamic pressure losses on the discontinuous point in outlet diameter, fluid friction and the rotor.The air intake that enters the axial passage that is rotating for the air discontinuous point that comes to this.

Aspect the fan effect of optimizing rotor, prior art only attentiveness is placed on axial inflow area and radial flow goes out on the rational proportion of area, is exactly in addition to avoid air or cooling agent to run into unnecessary pass.The air intake resistance often can not get optimizing.

For the end winding that makes motor also can obtain cooling, tube-axial fan can be installed on the position that keeps at a certain distance away with the rotor front end face on the motor shaft usually.In order to prevent tube-axial fan and rotor fan, can separate the suction side of rotor fan and tube-axial fan by the pipe fitting that is used for installation shaft streaming fan hub on the pressure side because of the initiation problem that influences each other.

Open case SU 147 30 18 A1 disclose a kind of and the present invention's motor of the same type.This motor has stator stack and the rotor lamination stack that is equipped with radial cooling channels separately.Rotor has a plurality of axial cooling ducts that are used for cooling agent is sent into from the rotor front end face these radial cooling channels in addition.The rotor front end face is furnished with ventilation blower, and this ventilation blower has the infundibulate overcoat, is used for carrying cooling agent to the axial passage of rotor.Cooling agent is from end winding district flow ventilation machine.The end winding owing to flow through, this cooling agent just were heated before entering ventilation blower or rotor.So just can't guarantee absolutely that rotor can fully be cooled off.

Open case DE 196 53 839 A1 disclose the direct gas-cooled turbogenerator rotor of a kind of employing.Be provided with a two-stage leaf grating that is used for to rotor and rotor winding conveying cooling air between rotor cover plate and the armature spindle.From the flow direction, the first order of this leaf grating is a deceleration leaf grating that can produce pressure, and that one-level that is positioned at the back on flowing to is a deceleration leaf grating with steering capability.

Open case DE 79 00 792 U1 disclose a kind of self-ventilated machine.This motor uses tube-axial fan to carry cooling air flow, and this tube-axial fan is arranged on the hollow wheel hub, and the internal diameter of this wheel hub is greater than the diameter of rotor axial cooling duct.Be provided with some ribs that play the mechanical consolidation effect between described wheel hub and the armature spindle.

In addition, patent specification DE 195 48 321 C1 describe a kind of cooling device that is used in particular for turbogenerator.Cooler links to each other with rotor by transfer passage, is provided with a plurality of cooling ducts that are used for the cooled rotor conductor in the rotor.At least therein be provided with at least one blade ring in a transfer passage, this blade ring can give cooling fluid the tangential speed component along the rotor direction of rotation, thereby the situation that makes cooling fluid flow to rotor improves.

Summary of the invention

The objective of the invention is to improve cooling situation with the motor that radially extends the cooling duct.

According to the present invention, this purpose is reached by a kind of motor, described motor comprises a stator, the motor of one rotor and a tube-axial fan, described rotor has an axle, also have a plurality of radial and axial cooling ducts, described rotor plays the effect of rotor fan, described tube-axial fan and described axle coaxial arrangement, be used for carrying cooling agent to described axial cooling duct, wherein, described tube-axial fan has one first blade ring, described first blade ring is surrounded by an infundibulate pipe fitting and is not linked to each other rotationally with described infundibulate pipe fitting, and the smaller opening of described infundibulate pipe fitting directly links to each other with the axial cooling duct of described rotor, and described tube-axial fan has one second blade ring, described second blade ring is fixedly mounted on the excircle of described pipe fitting, so that carry cooling agent to described stator.

Advantageously generate a kind of twin axial fan thus, in this twin axial fan, the outlet that is used for rotor separates with the outlet that is used for stator.Can in two active elements, realize fabulous cooling effect whereby.

The blade of first blade ring of described tube-axial fan is preferably distributing vertically towards rotor one side.That is to say, these blade arrangement one by one radially with the plane of described axial definition in.Adopt the advantage of this orientation to be, the cooling agent that passes these blades can reach the rotary speed of described axial cooling duct.

Described first blade ring can not link to each other rotationally with described axle.So just needn't external driver device be set for described tube-axial fan.

In addition, the big opening of the described pipe fitting that first blade ring is surrounded can be used as coolant entrance and flows into nozzle and directly link to each other with one, can be to first and second blade rings conveying cooling agent by this flow nozzle.By this flow nozzle, can cooling agent be sent in the zone of described tube-axial fan with clearly defined objectively.

In addition, described stator can have a stator stack that comprises a plurality of radial cooling channels, and these radial cooling channels are corresponding to the radial cooling channels of described rotor.In the case, the cooling agent stream that is produced by described tube-axial fan and described rotor fan also can be used for stator.

According to another execution mode, described stator can have an end winding, and described second blade ring is directly carried cooling agent to this end winding.Can make whereby this generally speaking the end winding of extreme temperatures effectively cooled off.

Described motor can have a shell in addition, the cooling agent that described flow nozzle is only imported from the outside towards described tube-axial fan direction guiding in this shell.Can avoid cooling agent before being admitted to rotor, in end winding district, to be heated whereby.

According to another execution mode of described motor, an above-mentioned tube-axial fan can respectively be arranged in the both sides of described rotor.In the case, this efficient cooling scheme of the present invention also can be applicable to bilateral aeration type motor.

Description of drawings

The present invention is described in detail by accompanying drawing below, and this unique accompanying drawing is showed is one to carry out the local longitudinal sectional drawing of the motor of work by cooling principle of the present invention.

Embodiment

The embodiment that will be described in detail is a preferred implementation of the present invention below.

Motor shown in the drawings is local mainly to be made of stator 1 and the rotor 2 that comprises axle 3.Described axle is installed on the end cap 5 by means of bearing 4.

Stator 1 is made of a plurality of stationary part stack of laminations 6, is provided with radial stator cooling duct 7 between these stack of laminations.The front end face of stator 1 is provided with end winding 8.

Similarly, rotor 2 is to be made by a plurality of rotor portion stack of laminations 9, is provided with radial rotor cooling duct 10 between these stack of laminations.Each rotor portion stack of laminations 9 is provided with open-work in the axial direction, thereby produces axial cooling duct 11, and these axial cooling ducts link to each other with described radial rotor cooling duct.

The front end face of rotor 2 be provided with one with not rotationally mode be installed in the tube-axial fan 12 of axle on 3.This tube-axial fan realizes that with axle being connected by wheel hub 13 between 3 described wheel hub is pressed on the axle 3.The excircle of wheel hub 13 is provided with first blade ring 14, and this blade ring comprises the circumferential equally distributed fan blade in a plurality of edges.The blade outlet angle of these fan blade is 90 °, that is fan blade is positioned at one towards the part of rotor 2 and radially extends the plane that straight line and extends axially the straight line definition by one.In the case, cooling agent stream is understood vertical current to the rotor front end face after these fan blade of flowing through.

The described inboard blade ring or first blade ring 14 are surrounded by a taper shape or infundibulate pipe fitting 15.This pipe fitting 15 is the part of tube-axial fan 12 equally, and with tube-axial fan and rotor 2 rotations.In addition, infundibulate pipe fitting 15 has a bigger inlet 16 and a less outlet 17 that is positioned at the other end.The inside radius of outlet 17 inside radius with axial cooling duct 11 outermost radial outside at least is the same big.In addition, axially cooling duct 11 directly links to each other with outlet 17 in the axial direction.Can guarantee whereby only can be pressed in the axial cooling duct, and can not enter winding district, end 18 by the cooling agent that infundibulate pipe fitting 15 is carried.

On the oversheath of pipe fitting 15, promptly radially above first blade ring 14, be provided with the outside blade ring or second blade ring 19.Described second blade ring is made of a plurality of outsides fan blade, and these fan blade are not to be installed on the pipe fitting 15 along circumferential equally distributed mode rotationally.The effect of these fan blade is to carry cooling agent in the outside of pipe fitting 15 towards end winding 8 directions.In order to make cooling agent can directly flow to the inlet of described tube-axial fan under not by the situation of end winding preheating, between end cap 5 and end winding 8, be provided with flow nozzle 20.Flow nozzle 20 constitutes a circular passage that axle 3 is surrounded, and tube-axial fan 12 just is arranged in this passage.

Can make by the way and produce a cooling agent stream in the described motor, this cooling agent stream sets out from a cooler in other words from the outside, passes between end cap 5 and flow nozzle 20, and flows to twin axial fan 12.The wherein part of this cooling agent stream is carried towards axial passage 11 by being positioned at the first inboard blade ring 14, and passes radial rotor cooling duct 10 and radially outwards overflow with the radial stator cooling duct 7 of aiming at these radial rotor cooling ducts.The outside second blade ring 19 that another part of described cooling agent stream is positioned at pipe fitting 15 outsides by twin axial fan 12 is sent into winding district, end 18 or is carried towards end winding 8.Flow to end winding 8 and rotor 2 with can making " fresh " cooling agent equal extent like this.

In twin axial fan of the present invention, the outlet that is used for rotor separates with the outlet that is used for the end winding, hereinafter will the action principle of this twin axial fan of the present invention be elaborated.For coolant entrance resistance or the air intake resistance that makes rotor fan minimizes, need to produce a cooling agent eddy flow and carry cooling agent to rotor by this way.This point by be arranged in the rotor fan front, outlet blade angle is that 90 ° tube-axial fan 12 is realized as far as possible.The contraction of described pipe fitting in tube-axial fan 12 back can produce the effect of further promotion cooling.When cooling agent stream passed this shrinking zone, the axial component of this cooling agent stream can raise, thereby made that total flow vector more is directed vertically, and this is because tangential component and radial component do not increase.In the case, even, can guarantee that also cooling agent flows to rotor fan with the eddy flow form when blade outlet angle during less than 90 °.Inlet angle (being the fluid inlet angle of cooling agent with respect to fan blade) is complementary with rotating speed and volume required flow.

As mentioned above, tube-axial fan 12 is designed to twin axial fan at this.Owing to be provided with pipe fitting 15 between two blade rings of this tube-axial fan, this tube-axial fan can produce two independent cooling agent streams that are respectively applied for rotor and stator or end winding.Flow this function except separating these two cooling agents, pipe fitting 15 also has the function of raising coolant pressure mentioned above, and this is because this pipe fitting has adopted taper shape or funnel-shaped design.As mentioned above, the outside second tube-axial fan of described twin axial fan is used to the end winding of described motor that cooling agent effectively is provided.Therefore except that producing two independent cooling agent streams, described twin axial fan also has this 3rd function of the pressure of raising.Therefore, design of electrical motor scheme provided by the present invention has and can make cooling agent flow the advantage through stack of laminations zone and end winding of controlled flow better.In addition, can make cooling agent flow to rotor fan by reducing the coolant entrance resistance, thereby the efficient of rotor fan is improved with optimum state.The tube-axial fan of upstream also has the function of further recovering pressure on rotor fan.At last, the improvement of cooling situation also can make described efficiency of motor be improved.

For example, described motor can be embodied as motor, also can be embodied as generator.In addition, above-mentioned cooling principle also can be applicable to structure and is different from the motor of the foregoing description.For example, described end winding also can be arranged on the rotor, and at this moment, cooling agent stream that outside blade ring 19 is produced or cooling air flow are with regard to the end face of respective streams to the end of rotor winding and stator.Certainly, described motor also can adopt the version of any one other types.Specific, all adopt this twin axial fan to come for it ventilates in the both sides of described motor, also be favourable.

Claims

1. motor comprises:

One stator (1),

One rotor (2), described rotor have an axle (3), also have a plurality of radial and axial cooling ducts (10,11), and described rotor plays the effect of rotor fan, and

One tube-axial fan (12), described tube-axial fan and described axle (3) coaxial arrangement are used for carrying cooling agent to described axial cooling duct (11), wherein,

Described tube-axial fan (12) has one first blade ring (14), and described first blade ring is surrounded by an infundibulate pipe fitting (15) and do not link to each other rotationally with described infundibulate pipe fitting,

The smaller opening (17) of described infundibulate pipe fitting (15) directly links to each other with the axial cooling duct (11) of described rotor (2),

It is characterized in that,

Described tube-axial fan (12) has one second blade ring (19), and described second blade ring is fixedly mounted on the excircle of described pipe fitting (15), so that carry cooling agent to described stator (1).

2. motor according to claim 1, wherein, the blade of first blade ring (14) of described tube-axial fan (12) is distributing vertically towards described rotor (2) one sides.

3. motor according to claim 1 and 2, wherein, described first blade ring (14) does not link to each other rotationally with described axle (3).

4. the described motor of each claim in requiring according to aforesaid right, wherein, the big opening (16) of described pipe fitting (15) directly links to each other as coolant entrance and with an inflow nozzle (20), can carry described cooling agent to described first blade ring and described second blade ring (14,19) by described flow nozzle.

5. the described motor of each claim in requiring according to aforesaid right, wherein, described stator (1) has a stator stack that comprises a plurality of radial cooling channels (7), and described radial cooling channels (7) is corresponding to the radial cooling channels (10) of described rotor (2).

6. the described motor of each claim in requiring according to aforesaid right, wherein, described stator (1) has an end winding (8), and described second blade ring (19) is directly carried cooling agent to described end winding.

7. the described motor of each claim in requiring according to aforesaid right, and it has a shell, the cooling agent that described flow nozzle (20) is only imported from the outside towards described tube-axial fan (12) direction guiding one in described shell.

8. the described motor of each claim in requiring according to aforesaid right, wherein, two end faces of described rotor (2) respectively are furnished with a described tube-axial fan (12).